Method, apparatus, and system for online subscription data configuration

ABSTRACT

The present disclosure provides a method, an apparatus, and a method for online subscription data configuration. This method for online subscription data configuration includes: acquiring, by a subscription data configuration function device (SMF), equipment capability information of a user equipment (UE) and information of a service supported by the UE; generating, by the SMF, user subscription data according to the equipment capability information of the UE and the information of service supported by the UE, and generating user service subscription data according to the information of the service supported by the UE; where the user subscription data and the user service subscription data include an international mobile subscriber identity (IMSI) allocated to the UE by the SMF; performing, by the SMF, subscription data configuration on a home subscriber server (HSS) and a subscription profile repository (SPR), according to the user subscription data and the user service subscription data.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of U.S. patentapplication Ser. No. 15/206,044, filed on Jul. 8, 2016, which is adivisional application of U.S. patent application Ser. No. 14/572,497,filed on Dec. 16, 2014, which is a continuation of InternationalApplication No. PCT/CN2012/077892, filed on Jun. 29, 2012. Theafore-mentioned patent applications are hereby incorporated by referencein their entireties.

TECHNICAL FIELD

Embodiments of the present disclosure relate to communicationtechnologies and, in particular, to a method, an apparatus, and a systemfor online subscription data configuration.

BACKGROUND

As a basic requirement of mobile communication, before entering a mobilenetwork to perform mobile communication, a user equipment (UE) mustfirst go to an operator for opening an account, so as to obtain a legaland valid SIM (subscriber identity module) card/UICC (universalintegrated circuit card), and then carry out the mobile communicationservices, such as voice calls and mobile surfing; this basic requirementis applicable to traditional 2G/3G circuit service such as voice, and isapplicable to 2G/3G data service such as GPRS (general packet radioservice) surfing, and is also applicable to the voice and data servicein 4G LTE (long term evolution) network.

In the prior art, for the UE using a subscriber identity module (SIM)card, by inserting the SIM into the UE, it can achieve subscription dataconfiguration of the UE with respect to the network operator selling theSIM card, and by changing the SIM card, the network operator can bechanged.

However, for a UE in a machine to machine (M2M) system, because ofutilizing an embedded universal circuit card (eUICC), once manufacturingof a device is finished, it is very difficult to change the eUICCembedded in the device, thus the configuration or update of thesubscription data should be completed online, therefore, the networkside also needs to complete the online subscription data configurationprocedure synchronously. In the prior art, the network side doesn'tsupport the online subscription data configuration and, thus, in the M2Msystem, the requirements of the user or the application provider forchanging the network operator cannot be satisfied.

SUMMARY

Embodiments of the present disclosure provide a method for onlinesubscription data configuration, which are used to solve the problem inthe prior art that a UE using an eUICC switches among different operatornetwork.

In one aspect, embodiments of the present disclosure provide a methodfor online subscription data configuration, including:

acquiring, by an SMF (Subscription Management Function, subscriptiondata configuration function device), equipment capability information ofa user equipment (UE) and information of a service supported by the UE;

generating, by the SMF, user subscription data according to theequipment capability information of the UE and the information of theservice supported by the UE, and generating user service subscriptiondata according to the information of the service supported by the UE;where the user subscription data and the user service subscription datainclude an IMSI (International Mobile Subscriber Identification Number,international mobile subscriber identity) allocated to the UE by theSMF; and

performing, by the SMF, subscription data configuration on an HSS (homesubscriber server) and an SPR (subscription profile repository),according to the user subscription data and the user servicesubscription data.

In another aspect, embodiments of the present disclosure further providea method for online subscription data configuration, including:

transmitting, by an HSS, a first subscription information configurationrequest to an SMF, where the first subscription informationconfiguration request includes an IMEI (international mobile equipmentidentity) of a UE; and

receiving and storing, by the HSS, user subscription data transmitted bythe SMF, where the user subscription data is generated according toequipment capability information of the UE and information of a servicesupported by the UE and is transmitted by the SMF, and the usersubscription data includes the international mobile subscriber identity(IMSI) allocated to the UE by the SMF.

In still another aspect, embodiments of the present disclosure furtherprovide a method for online subscription data configuration, including:

transmitting, by an MME (Mobility Management Entity, mobility managementnetwork element), a first subscription information configuration requestto an SMF, where the first subscription information configurationrequest includes an IMEI of a UE; and

receiving, by the MME, a first subscription information configurationresponse message transmitted by the SMF, where the first subscriptioninformation configuration response message is transmitted by the SMFafter the SMF acquires equipment capability information of the UE andinformation of a service supported by the UE, generates usersubscription data according to the equipment capability information ofthe UE and the information of the service supported by the UE, generatesuser service subscription data according to the information of theservice supported by the UE, and completes subscription dataconfiguration on a home subscriber server (HSS) and a subscriptionprofile repository (SPR) according to the user subscription data and theuser service subscription data.

In still another aspect, embodiments of the present disclosure furtherprovide a method for online subscription data configuration, including:

acquiring, by an application server (AF), equipment capabilityinformation of a user equipment (UE), and information of a servicesupported by the UE; and

transmitting, by the AF, the equipment capability information of the UEand the information of the service supported by the UE to a subscriptiondata configuration function device (SMF), to enable the SMF to generateuser subscription data according to the equipment capability informationof the UE and the information of the service supported by the UE, andgenerate user service subscription data according to the information ofthe service supported by the UE, and perform subscription dataconfiguration on a home subscriber server (HSS) and a subscriptionprofile repository (SPR) according to the user subscription data and theuser service subscription data, where the user subscription data and theuser service subscription data include an international mobilesubscriber identity (IMSI) allocated to the UE by the SMF.

According to the methods, the apparatuses and the system for onlinesubscription data configuration provided in embodiments of the presentdisclosure, performing online subscription data configuration on thenetwork side can be realized, when a UE first connects to a network of asecond operator, or switches from a network of a first operator to anetwork of a second operator, thereby satisfying the requirements of auser or an application provider utilizing an eUICC for changing anoperator.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic flowchart of a method for online subscription dataconfiguration according to an embodiment of the present disclosure;

FIG. 2 is a schematic flowchart of a method for online subscription dataconfiguration according to another embodiment of the present disclosure;

FIG. 3 is a schematic flowchart of a method for online subscription dataconfiguration according to still another embodiment of the presentdisclosure;

FIG. 4A is a schematic flowchart of a method for online subscriptiondata configuration according to still another embodiment of the presentdisclosure;

FIG. 4B is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to an embodiment of the presentdisclosure;

FIG. 5 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to another embodiment of the presentdisclosure;

FIG. 6 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to still another embodiment of thepresent disclosure;

FIG. 7 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to still another embodiment of thepresent disclosure;

FIG. 8 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to still another embodiment of thepresent disclosure;

FIG. 9 is a schematic structure diagram of a subscription dataconfiguration function device (SMF) according to an embodiment of thepresent disclosure;

FIG. 10 is a schematic structure diagram of an embodiment of thesubscription data configuring module in FIG. 9;

FIG. 11 is a schematic structure diagram of an embodiment of the firstobtaining module in FIG. 9;

FIG. 12 is a schematic structure diagram of another embodiment of thefirst obtaining module in FIG. 9;

FIG. 13 is a schematic structure diagram of a subscription dataconfiguration function device (SMF) according to another embodiment ofthe present disclosure;

FIG. 14 is a schematic structure diagram of a home subscriber server(HSS) according to an embodiment of the present disclosure;

FIG. 15 is a schematic structure diagram of a home subscriber server(HSS) according to an embodiment of the present disclosure;

FIG. 16 is a schematic structure diagram of a home subscriber server(HSS) according to an embodiment of the present disclosure;

FIG. 17 is a schematic structure diagram of a mobility management entity(MME) according to an embodiment of the present disclosure;

FIG. 18 is a schematic structure diagram of a mobility management entity(MME) according to an embodiment of the present disclosure;

FIG. 19 is a schematic structure diagram of an application server (AF)according to an embodiment of the present disclosure;

FIG. 20 is a schematic structure diagram of an application server (AF)according to another embodiment of the present disclosure;

FIG. 21 is a schematic structure diagram of another embodiment of thethird transmitting module in FIG. 19;

FIG. 22 is a schematic diagram of an application server (AF) accordingto another embodiment of the present disclosure;

FIG. 23 is a schematic structure diagram of another embodiment of thethird acquiring module in FIG. 19; and

FIG. 24 is a schematic structure diagram of a system for onlinesubscription data configuration according to an embodiment of thepresent disclosure.

DESCRIPTION OF EMBODIMENTS

A method for online subscription data configuration of the presentdisclosure can be applicable to a network system as M2M, in which a UEutilizes an eUICC, when the UE is configured with no subscription dataof any operator and connects to a network of a second operator for thefirst time, or when the UE has already been configured with subscriptiondata of a first operator, but the UE or a service provider needs toinitiate a connection to the network of the second operator,reconfiguration of subscription data of the second operator can beperformed according to the method for online subscription dataconfiguration provided by the present disclosure.

In embodiments of the present disclosure, when a UE has been configuredwith subscription data, a first operator refers to the operator to whichthe subscription data currently configured for the UE belongs, and asecond operator refers to the operator to which subscription datarequired to be configured for the UE belongs; when a UE has beenconfigured with no subscription data, a second operator refers to theoperator to which subscription data required to be configured for the UEbelongs.

In embodiments of the present disclosure, performing online subscriptiondata configuration on a HSS and a SPR by a SMF is realized. Inembodiments of the present disclosure, network elements involved in theonline subscription data configuration procedure are not limited to bewithin the same operator network. For example, in the case that the UEhas been configured with the subscription data of the first operator, anetwork connected to the first operator may perform subscription dataconfiguration on a network side device of a network of a secondoperator; and in the case that the UE has been configured with thesubscription data of the first operator, a network connected to thesecond operator may also perform subscription data configuration on thenetwork side device of the network of the second operator; and in thecase that the UE has been configured with no subscription data, thenetwork connected to the second operator may also perform subscriptiondata configuration on the network side device of the network of thesecond operator.

FIG. 1 is a schematic flowchart of a method for online subscription dataconfiguration according to an embodiment of the present disclosure; asshown in FIG. 1, the method for online subscription data configurationprovided in this embodiment includes:

Step 101: a SMF acquires equipment capability information of a UE andinformation of a service supported by the UE;

Step 102: the SMF generates user subscription data according to theequipment capability information of the UE and the information of theservice supported by the UE, and generates user service subscriptiondata according to the information of the service supported by the UE;where the user subscription data and the user service subscription datainclude an IMSI allocated to the UE by the SMF; and

Step 103: the SMF performs subscription data configuration on a HSS anda SPR according to the user subscription data and the user servicesubscription data.

By the steps from step 101 to step 103, performing online subscriptiondata configuration on the network side can be realized, when the UE isconfigured with no subscription data of any operator, or the UE isalready configured with subscription data of a first operator but needsto be reconfigured with subscription data of a second operator, therebysatisfying the requirements of a user utilizing an eUICC for changing anoperator.

The executive entity of this embodiment is a SMF.

Where, the equipment capability information of the UE may include: aconnection form supported by the UE, namely a circuit connection and/ora data connection supported by the UE, and an encryption securityalgorithm supported by the UE; the information of the service supportedby the UE may include: a service identifier (used for identifying aservice type supported by the UE) and access point (APN) information;the user subscription data may include: the IMSI of the UE, theconnection forms supported by the UE, an authorization andauthentication vector, an accounting-related parameter and regionalroaming restriction; and the user service subscription data may include:the IMSI of the UE, a UE bearer quality of service (QoS) parameter, andan accounting policy.

The performing, by the SMF, the subscription data configuration on theHSS and the SPR according to the user subscription data and the userservice subscription data may include:

The SMF transmits the user subscription data to the HSS, to enable theHSS to store the user subscription data; and

The SMF transmits the user service subscription data to the SPR, toenable the SPR to store the user service subscription data.

Optionally, after transmitting the user subscription data to the HSS,the SMF may also receive a storing user subscription data successindication message replied by the HSS, and confirms that the HSS hasalready stored the user subscription data successfully according to theindication message.

Optionally, after transmitting the user service subscription data to theSPR, the SMF may also receive a storing user service subscription datasuccess indication message replied by the SPR, and confirms that the SPRhas already stored the user service subscription data successfullyaccording to the indication message.

An embodiment of acquiring, by the subscription data configurationfunction device (SMF), the equipment capability information of the userequipment (UE) and the information of the service supported by the UEmay include:

The SMF acquires a first subscription information configuration request,where the first subscription information configuration request includesthe IMEI of the UE;

The SMF transmits an authorization and authentication request to the AF,where the authorization and authentication request includes the IMEI ofthe UE; and

The SMF receives an authorization and authentication response messagereturned by the AF, where the authorization and authentication responsemessage includes the equipment capability information of the UE and theinformation of the service supported by the UE.

An embodiment of acquiring, by the SMF, the first subscriptioninformation configuration request may include:

The SMF receives the first subscription information configurationrequest transmitted by the UE; or

The SMF receives the first subscription information configurationrequest transmitted by the HSS, where the first subscription informationconfiguration request is forwarded by the HSS after being transmittedfrom the UE to the HSS via an MME; or

The SMF receives the first subscription information configurationrequest transmitted by an MME, where the first subscription informationconfiguration request is forwarded by the MME after being sent by the UEto the MME.

Another embodiment of acquiring, by the subscription data configurationfunction device (SMF), the equipment capability information of the userequipment (UE) and the information of the service supported by the UEmay include:

The SMF receives a second subscription information configurationrequest, where the second subscription information configuration requestincludes: the equipment capability information of the UE, theinformation of the service supported by the UE and the IMEI of the UE.

The method provided in the above embodiments may also include: the SMFgenerates first subscription data needed by the UE according to theequipment capability information of the UE, and transmits the firstsubscription data to the UE, to enable the UE to store the firstsubscription data. By transmitting the first subscription data to theUE, the online subscription data configuration can be performed on theUE, thereby satisfying the requirements of a user or an applicationprovider utilizing an eUICC for changing an operator.

The transmitting, by the SMF, the first subscription data to the UE mayinclude:

The SMF transmits a first subscription information configurationresponse message to the HSS, to enable the HSS to forward the firstsubscription data to the UE via a mobility management entity (MME),where the first subscription information configuration response messageincludes the first subscription data; or

The SMF transmits the first subscription information configurationresponse message to a mobility management entity (MME), to enable theMME to transmit the first subscription data to the UE; or

The SMF transmits a second subscription information configurationresponse message to the AF, so as to transmit the subscription data tothe UE via the AF, where the second subscription informationconfiguration response message includes the first subscription data.

FIG. 2 is a schematic flowchart of a method for online subscription dataconfiguration according to another embodiment of the present disclosure;as shown in FIG. 2, the method for online subscription dataconfiguration provided in this embodiment, includes:

Step 201: an HSS transmits a first subscription informationconfiguration request to a SMF, where the first subscription informationconfiguration request includes an IMEI of a UE; and

Step 202: the HSS receives and stores user subscription data transmittedby the SMF, where the user subscription data is generated according toequipment capability information of the UE and information of a servicesupported by the UE and is transmitted by the SMF, and the usersubscription data includes the IMSI allocated to the UE by the SMF.

The executive entity of this embodiment is an HSS.

By the step 201 and the step 202, performing subscription dataconfiguration on the network side online can be realized, thereby therequirements for initial connection or changing the operator can berealized for the network system in which a UE utilizes an eUICC.

After receives the first subscription information configuration request,the SMF shall acquires the IMEI of the UE from the first subscriptioninformation configuration request, and then encapsulates the IMEI of theUE in an authorization and authentication request and transmits to theAF, to enable the AF to perform authentication on the UE, and returnsthe equipment capability information of the UE and the information ofthe service supported by the UE through an authorization andauthentication response message after the authentication is passed.Afterwards, the SMF generates the user subscription data according tothe equipment capability information of the UE and the information ofthe service supported by the UE.

Further, before the HSS transmits the first subscription informationconfiguration request to the SMF, the method may include: the HSSreceives the first subscription information configuration request whichis forwarded via an MME from the UE.

The HSS may also receive first subscription data needed by the UE, wherethe first subscription data is transmitted by the SMF, and transmit afirst subscription information configuration response message to the UE,where the first subscription information configuration response messageincludes the first subscription data, and the first subscription data isgenerated by the SMF according to the equipment capability informationof the UE. By transmitting the first subscription data to the UE,performing subscription data configuration on the UE online can berealized, thereby the requirements for initial connection or changingthe operator can be realized for the network system in which a UEutilizes an eUICC.

FIG. 3 is a schematic flowchart of a method for online subscription dataconfiguration according to another embodiment of the present disclosure.As shown in FIG. 3, the method for online subscription dataconfiguration provided in this embodiment, includes:

Step 301: an AF acquires equipment capability information of a UE andinformation of a service supported by the UE; and

Step 302: the AF transmits the equipment capability information of theUE and the information of the service supported by the UE to an SMF, toenable the SMF to generate user subscription data according to theequipment capability information of the UE and the information of theservice supported by the UE, and generate user service subscription dataaccording to the information of the service supported by the UE, andperforms subscription data configuration on an HSS and an SPR accordingto the user subscription data and the user service subscription data,where the user subscription data and the user service subscription datainclude an IMSI allocated to the UE by the SMF.

By the step 301 and the step 302, for the network system in which a UEutilizes an eUICC, when a UE needs to connect to an operator network forthe first time or change an operator network, performing subscriptiondata configuration on the network side online can be realized.

The executive entity of this embodiment is an AF.

After receiving the equipment capability information of the UE and theinformation of the service supported by the UE, the SMF generates theuser subscription data according to the equipment capability informationof the UE and the information of the service supported by the UE;generates the user service subscription data according to theinformation of the service supported by the UE; and then transmits theuser subscription data and the user service subscription data to the HSSand the SPR respectively, so as to realized the subscription dataconfiguration for the HSS and the SPR.

The acquiring, by the AF, the equipment capability information of the UEand the information of the service supported by the UE, may includes:

The AF receives an authorization and authentication request transmittedby the UE, where the authorization and authentication request includesthe IMEI of the UE;

The AF acquires the equipment capability information of the UE and theinformation of the service supported by the UE according to the IMEI ofthe UE in the authorization and authentication request; and

The transmitting, by the AF, the equipment capability information of theUE and the information of the service supported by the UE to the SMF mayinclude:

The AF transmits an authorization and authentication response message tothe SMF, where the authorization and authentication response messageincludes the equipment capability information of the UE and theinformation of the service supported by the UE.

The acquiring, by the AF, the equipment capability information of the UEand the information of the service supported by the UE may includes:

The AF receives an operator switching instruction; and

The AF acquires the equipment capability information of the UE and theinformation of the service supported by the UE according to the operatorswitching instruction.

For example, when a UE decides to switch an operator network, the UE maytransmit the operator switching instruction to the AF; or, when aservice provider decides to switch its services from a network of afirst operator to a network of a second operator, the operator switchinginstruction may be input to the AF by an administrator of the serviceprovider, to enable the AF to extract the equipment capabilityinformation of the UE and the information of the service supported bythe UE from the operator switching instruction.

The transmitting, by the AF, the equipment capability information of theUE and the information of the service supported by the UE to the SMF mayinclude:

The AF transmits a second subscription information configuration requestto the SMF, where the second subscription information configurationrequest includes: the equipment capability information of the UE, theinformation of the service supported by the UE, and the IMEI of the UE.

Optionally, after the AF transmits the second subscription informationconfiguration request to the SMF, the method further includes:

The AF receives a second subscription information configuration responsemessage transmitted by the SMF, where the second subscriptioninformation configuration response message includes first subscriptiondata needed by the UE; where the first subscription data is generated bythe SMF according to the equipment capability information of the UE; and

The AF transmits the first subscription data to the UE.

By transmits the first subscription data to the UE, for the networksystem in which a UE utilizes an eUICC, when the UE needs to connect toan operator network for the first time or change an operator network,the subscription data configuration may be online performed on thenetwork side.

FIG. 4A is a schematic flowchart of a method for online subscriptiondata configuration according to another embodiment of the presentdisclosure. As shown in FIG. 4A, the method for online subscription dataconfiguration provided in this embodiment includes:

Step 40 a: an MME transmits a first subscription informationconfiguration request to a SMF, where the first subscription informationconfiguration request includes an IMEI of a UE; and

For example, when detecting that the UE is not configured with anysubscription data, or detecting that the UE is already configured withsubscription data of a first operator and receiving an indication thatthe UE needs to be configured with subscription data online once againfrom the UE, the MME may transmit the first subscription informationconfiguration request to the SMF.

Step 40 b: the MME receives a first subscription informationconfiguration response message transmitted by the SMF, where the firstsubscription information configuration response message is transmittedby the SMF after the SMF acquires equipment capability information ofthe UE and information of a service supported by the UE, generates usersubscription data according to the equipment capability information ofthe UE and the information of the service supported by the UE, generatesuser service subscription data according to the information of theservice supported by the UE, and completes subscription dataconfiguration on an HSS and an SPR according to the user subscriptiondata and the user service subscription data.

The executive entity of this embodiment is MME.

The following describes the technical solutions of the presentdisclosure in detail by utilizing several specific embodiments.

FIG. 4B is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to an embodiment of the presentdisclosure disclosure; please refer to FIG. 4B, the method provided inthis embodiment is applicable to a subscription configuration procedurethat a UE is configured with no subscription data of any operator, andthe UE connects to a network of a second operator directly; and iscertainly applicable to the case that a UE has already connected to thenetwork of the first operator, and needs to change to a network of asecond operator; e.g., regarding the case that the UE has alreadyconnected to the network of the first operator, and needs to change tothe network of the second operator, the UE may be triggered to performthe online subscription data configuration procedure by inputting a PLMNID (Public Land Mobile Network Identity, public land mobile networkidentity) of the network of the second operator to the UE, that is, wheninputting the PLMN ID of the network of the second operator to the UE iscompleted, the UE begins executing the steps in this embodiment. Themethod of this embodiment may include:

Step 401: a UE transmits a first subscription information configurationrequest; where the first subscription information configuration requestmay include an IMEI of the UE.

Optionally, besides the IMEI of the UE, the first subscriptioninformation configuration request may also include equipment capabilityinformation of the UE and PLMN ID of the network of the second operatorand etc. If the UE is configured with subscription data of a firstoperator, then the first subscription information configuration requestmay also carry an IMSI which is allocated to the UE by the network ofthe first operator.

Step 402: after receiving the first subscription informationconfiguration request transmitted by the UE, the MME forwards the firstsubscription information configuration request to a HSS of the secondoperator. Where, the HSS may be selected according to technical means inthe prior art, for example, based on static configuration or accordingto the user's location and etc, no particular limitation is made to thisin the present patent.

Optionally, after receiving the first subscription informationconfiguration request and before forwarding it the MME may also performauthentication and security encryption on the UE according to the IMEIincluded in the first subscription information configuration request.

Step 403: after receiving the first subscription informationconfiguration request transmitted by the MME, the HSS transmits thefirst subscription information configuration request to a SMF of thesecond operator; where, the HSS, the MME and the SMF may all belong tothe network of the second operator.

Optionally, before transmitting the first subscription informationconfiguration request to the SMF of the second operator, the HSS mayalso perform authentication and security encryption on the UE inadvance, after that, may also generate temporary subscription data forthe UE, where the temporary subscription data at least includes thedevice identifier (IMEI) of the UE. Certainly, the HSS may also forwardthe first subscription information configuration request to the SMFdirectly.

Step 404: the SMF searches out an AF corresponding to the UE accordingto the IMEI in the first subscription information configuration request,and transmits an authorization and authentication request to the AF,where the authorization and authentication request includes the IMEI ofthe UE.

Step 405: the AF performs authorization and authentication on the UEaccording to the IMEI of the UE in the received authorization andauthentication request, and acquires equipment capability information ofthe UE and the information of a service supported by the UE according tothe IMEI of the UE, and transmits an authorization and authenticationresponse message to the SMF when the UE passes the authorization andauthentication, where the authorization and authentication responsemessage includes the equipment capability information of the UE and theinformation of the service supported by the UE.

Step 406: the SMF acquires the equipment capability information of theUE and the information of the service supported by the UE from thereceived authorization and authentication response message, allocates anIMSI of the second operator to the UE, and generates user subscriptiondata according to the equipment capability information of the UE and theinformation of the service supported by the UE, and generates userservice subscription data according to the information of the servicesupported by the UE, and may further generate first subscription dataneeded by the UE according to the equipment capability information ofthe UE; where, the user subscription data and the user servicesubscription data may include the IMSI allocated to the UE by the SMF.

Where, the equipment capability information of the UE may include: aconnection forms supported by the UE, namely a circuit connection and/ora data connection supported by the UE, and an encryption securityalgorithm supported by the UE, of course, an universal authorization andauthentication vector and etc may also be included; and the informationof the service supported by the UE may include: service identifier (usedfor identifying a service type supported by the UE) and APN information.

The user subscription data may include: the IMSI of the UE, theconnection forms supported by the UE, an authorization andauthentication vector, an accounting-related parameter and regionalroaming restriction; and the user service subscription data may include:the IMSI of the UE, a UE bearer QoS parameter, and an accounting policy;while the first subscription data may include: an IMSI of the UE, anauthorization and authentication vector and etc.

The SMF transmits the aforementioned user subscription data to the HSS;and transmits a first subscription information configuration responsemessage to the HSS, where the first subscription informationconfiguration response message includes the first subscription data.

Optionally, the SMF may transmit the aforementioned user subscriptiondata and the first subscription data to the HSS simultaneously throughone message, e.g., transmitting the user subscription data and the firstsubscription data to the HSS simultaneously through the firstsubscription information configuration response message.

Optionally, the SMF may also transmit the user subscription data and thefirst subscription data to the HSS through different messages, e.g.,transmitting the first subscription data to the HSS through the firstsubscription information configuration response message, andtransmitting the user subscription data to the HSS through anothermessage.

Optionally, if the HSS has already generated temporary subscription datafor the UE, the user subscription data may replace the temporarysubscription data of the UE which has been already generated.

Step 407: the SMF transmits the user service subscription data to theSPR, to enable the SPR to store the user service subscription data.

For example, the SMF may transmit the user service subscription data tothe SPR through a service subscription message, however, it is not belimited herein.

Step 408: the HSS stores the received user subscription data, andforwards the received first subscription information configurationresponse message to the MME.

Step 409: the MME transmits the first subscription informationconfiguration response message to the UE, where the first subscriptioninformation configuration response message includes the firstsubscription data.

Step 410: After completing the first subscription data configuration,the UE transmits a request for connecting to the network of the secondoperator, where the specific procedure is similar to the prior art, andwill not be repeated herein.

According to the method for subscription data configuration provide inthis embodiment, when the UE is configured with no subscription data ofany operator, and needs to connect to a network of a second operator, orwhen the UE has already connected to a network of a first operator, butneeds to change to a network of a second operator, performing onlinesubscription data configuration on both the UE and the network side canbe realized, thereby satisfying requirements of a UE which utilizes aneUICC.

FIG. 5 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to another embodiment of the presentdisclosure; please refer to FIG. 5, the application scenario of thisembodiment is similar to that of embodiment 4 except for the differencethat a direct communication interface is set between the MME and the SMFin the network side in this embodiment, therefore, the MME can transmita message to the SMF or receive a message from the SMF directly. Themethod of this embodiment may include:

Step 501: a UE transmits a first subscription information configurationrequest; where the first subscription information configuration requestmay include an IMEI of the UE.

Optionally, besides the IMEI of the UE, the first subscriptioninformation configuration request may also include equipment capabilityinformation of the UE, a service identifier and a PLMN ID of the networkof the second operator and etc. If the UE is already configured withsubscription data of a first operator, then the first subscriptioninformation configuration request may also carry an IMSI which isallocated to the UE by the network of the first operator.

Step 502: the MME forwards the received first subscription informationconfiguration request to the SMF of the network of the second operator.

Step 503: the SMF searches out an AF corresponding to the UE accordingto the IMEI in the first subscription information configuration request,and transmits an authorization and authentication request to the AF,where the authorization and authentication request includes the IMEI ofthe UE.

Step 504: the AF performs authorization and authentication on the UEaccording to the IMEI of the UE in the received authorization andauthentication request, and acquires equipment capability information ofthe UE and the information of a service supported by the UE according tothe IMEI of the UE, and transmits an authorization and authenticationresponse message to the SMF when the UE passes the authorization andauthentication, where the authorization and authentication responsemessage includes the equipment capability information of the UE and theinformation of the service supported by the UE.

Step 505: the SMF allocates an IMSI of the second operator to the UE,and generates user subscription data according to the equipmentcapability information of the UE and the information of the servicesupported by the UE, and generates user service subscription dataaccording to the information of the service supported by the UE, and mayfurther generate first subscription data needed by the UE according tothe equipment capability information of the UE; and

The SMF transmits the user subscription data to the HSS, to enable theHSS to store the user subscription data.

Step 506: the SMF transmits the user service subscription data to theSPR, to enable the SPR to store the user service subscription data.

Step 507: the SMF transmits a first subscription informationconfiguration response message to the MME, where the message includesthe first subscription data needed by the UE.

Step 508: the MME forwards the received first subscription informationconfiguration response message to the UE, to enable the UE to store thefirst subscription data.

Step 509: the UE connects to the network of the second operator, wherethe specific procedure is similar to the prior art, and will not berepeated herein.

In this embodiment, a direct communication interface is set between theMME and the SMF, which makes the interaction process more simplified,and is help for improving the efficiency of subscription dataconfiguration.

FIG. 6 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to still another embodiment of thepresent disclosure; please refer to FIG. 6, the method provided in thethis embodiment is applicable to the case that a UE has alreadyconnected to a network of a first operator, and then the UE initiatesswitching a service from the network of the first operator to thenetwork of the second operator; or, is also applicable to the case thata service provider decides to switch a certain service (e.g. smart meterservice) from the network of the first operator to the network of thesecond operator, in this case, the service provider can utilize theconnection which has already been established between the UE and thenetwork of the first operator to notify the UE of the identifier of theSMF of the second operator, and trigger the UE to initiate the onlinesubscription data configuration procedure. The method in this embodimentmay include:

Step 601: a UE connects to a network of a first operator by utilizingsubscription data of the first operator. For example, the UE initiatesan attach procedure to a network of operator A based on the prior art,where the specific flow may be as following: the UE transmits an attachrequest message to a MME, where the attach request message includes anIMSI of the UE; the MME initiates a location update procedure to a HSSbased on the IMSI of the UE; the HSS makes index of user subscriptiondata based on the IMSI, and completes authorization and authenticationprocedure between the UE and the network side;

Then, the MME creates user context, and initiates a default bearerestablishment procedure based on the user subscription data. where, italso needs to create the user context on the SGW (serving gateway)/PGW(PDN Gateway, serving gateway), and allocate bearer resource for theuser, in addition, the PGW may also allocate an IP address for the UE.

Step 602: the UE transmits a first subscription informationconfiguration request to the SMF of the second operator, where therequest includes the IMEI of the UE.

Specifically, the two ways as following may be used for triggering step602:

When a UE initiates operator network switching directly, namely that auser wants to switch from the network of the first operator to thenetwork of the second operator, the user may manually input anidentifier of a SMF of the second operator to the UE, to trigger theonline subscription data configuration procedure; where, the identifierof the SMF may be the FQDN (fully qualified domain name) of the SMF orthe SMF IP address of the second operator (the IP address of the SMF ofthe second operator may also be obtained through parsing theaforementioned FQDN of the SMF).

Another case is that, a service provider decides to switch a servicefrom the network of the first operator to the network of the secondoperator, for example, the national grid providing the smart gridservice decides to switch the smart meter service from the network ofthe first operator to the network of the second operator, in this case,the service provider may transmit the identifier of the SMF of thesecond operator to the UE, via the connection which has been establishedbetween the UE and the network of the first operator, and trigger the UEto executive step 602; herein, the identifier of the SMF may be the FQDNof the SMF or the IP address of the SMF.

Optionally, besides the IMEI of the UE, the first subscriptioninformation configuration request may further include the equipmentcapability information of the UE, a service identifier, a PLMN ID of thenetwork of the second operator and the IMSI allocated to the UE by thenetwork of the first operator and etc. The equipment capabilityinformation of the UE may include a circuit connection and/or a dataconnection supported by the UE, and an encryption security algorithmsupported by the UE, and an universal authorization and authenticationvector and etc.

Step 603: after receiving the first subscription informationconfiguration request, the SMF searches out an AF corresponding to theUE based on the IMEI in the first subscription information configurationrequest, and transmits an authorization and authentication request tothe AF, where the authorization and authentication request includes theIMEI of the UE.

Besides the IMEI of the UE, the authorization and authentication requestmay also include: a service identifier and a PLMN ID of the network ofthe second operator.

Step 604: the AF performs authorization and authentication on the UEaccording to the IMEI of the UE in the received authorization andauthentication request, when the UE passes the authorization andauthentication, the AF acquires, according to the IMEI of the UE, theequipment capability information of the UE and the information of theservice supported by the UE corresponding to the IMEI of the UE, fromthe correspondence among the IMEI and the equipment capabilityinformation of the UE and the information of service supported by the UEstored in the AF, and transmits an authorization and authenticationresponse message to the SMF, where the authorization and authenticationresponse message includes the equipment capability information of the UEand the information of the service supported by the UE.

Step 605: the SMF receives the authorization and authentication responsemessage transmitted by the AF, acquires the equipment capabilityinformation of the UE and the information of the service supported bythe UE, and generates user subscription data according to the equipmentcapability information of the UE and the information of the servicesupported by the UE, generates user service subscription data accordingto the information of the service supported by the UE; allocates an IMSIof the network of the second operator to the UE, moreover, the usersubscription data and the user service subscription data may include theIMSI allocated to the UE by the SMF;

The SMF transmits the aforementioned user subscription data to the HSS,to enable the HSS to store the user subscription data;

Herein, the SMF may select the HSS based on static configuration, or theSMF may select the HSS based on the IMSI of the network of the secondoperator reallocated to the UE, or, the SMF may select the HSS based onthe user's current location information, no particular limitation ismade to this in the present patent.

Specifically, the user subscription data may be transmitted through auser equipment subscription data insertion request, specifically, theuser subscription data may include: the IMSI of the UE in the network ofthe second operator, the network access mode, the authorization andauthentication vector, the default bearer QoS parameter, theaccounting-related parameter and regional roaming restriction and etc.

Step 606: the SMF transmits the user service subscription data to theSPR, to enable the SPR to store the user service subscription data;

Specifically, the SMF may select the SPR based on the staticconfiguration or the IMSI of the UE in the network of the secondoperator, and may transmit the user service subscription data throughthe user equipment subscription data insertion request.

Where, the user service subscription data may include: the IMSI of theUE in the network of the second operator, the UE bearer QoS parameter,the accounting policy and user level and etc.

Step 607: the SMF generates first subscription data needed by the UEaccording to the equipment capability information of the UE, andtransmits the first subscription data to the UE, to enable the UE tostore the first subscription data;

Specifically, the first subscription data may be transmitted through afirst subscription data insertion request.

Where, the first subscription data may include: the IMSI of the UE inthe network of the second operator, the authorization and authenticationvector, the prohibited PLMN ID and etc.

Further, the steps 605, 606 and 607 may be one step, namely, performsthe operations in steps 605, 606 and 607 simultaneously, or, the orderof the steps 606 and 607 may be changed.

Step 608: the UE connects to the network of the second operator, wherethe specific procedure is similar to the prior art, and will not berepeated herein.

According to the method provided in this embodiment, switching from thenetwork of the first operator to the network of the second operator astriggered by the UE or the service provider can be realized, therebysatisfying requirements of the user and the service provider forchanging the operator network.

FIG. 7 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to still another embodiment of thepresent disclosure; please refer to FIG. 7, the method provided in thethis embodiment is applicable to the case that a UE has alreadyconnected to a network of a first operator, and then the UE initiatesswitching a service from the network of the first operator to a networkof a second operator. The method in this embodiment may include:

Step 701: a UE establishes connection to the network of the firstoperator by utilizing subscription data of the first operator.

Step 702: the UE establishes a connection to an AF of a second operator,then, transmits an authorization and authentication request to the AF,where the authorization and authentication request may include the IMEIof the UE.

Specifically, before establishing the connection to the AF of the secondoperator, the mechanism of discovering the AF of the second operator maybe based on usual means in the prior art such as an IP (internetprotocol) address or a FQDN of the AF of the second operator, noparticular limitation is made to this in the present patent.

Step 703: after receiving the authorization and authentication requesttransmitted by the UE, the AF performs authorization and authenticationon the UE according to the IMEI of the UE; the AF assigns a SMF of thesecond operator for the UE passing the authentication and acquires theequipment capability information of the UE and the information of theservice supported by the UE according to the IMEI of the UE; the AFtransmits a second subscription information configuration request to theSMF of the second operator, where the second subscription informationconfiguration request includes: the equipment capability information ofthe UE, the information of the service supported by the UE and the IMEI.

Optionally, in the step 702, the authorization and authenticationrequest transmitted to the AF by the UE may further include a PLMN ID ofthe network of the second operator in addition to the IMEI of the UE,correspondingly, in this step, the AF may search out the SMF of thesecond operator according to the PLMN ID of the network of the secondoperator.

Step 704: the SMF receives the second subscription informationconfiguration request transmitted by the AF, allocates an IMSI in thenetwork of the second operator to the UE, and acquires the equipmentcapability information of the UE and the information of the servicesupported by the UE from the second subscription informationconfiguration request, generates user subscription data according to theequipment capability information of the UE and the information of theservice supported by the UE, generates user service subscription dataaccording to the information of the service supported by the UE; where,the user subscription data and the user service subscription data mayinclude the IMSI allocated to the UE by the SMF;

The SMF transmits the user subscription data to the HSS, to enable theHSS to store the user subscription data.

Step 705: the SMF transmits the user service subscription data to theSPR, to enable the SPR to store the user service subscription data.

Step 706: the SMF generates first subscription data needed by the UEaccording to the equipment capability information of the UE, andtransmits the first subscription data to the AF through a secondsubscription information configuration response message.

Step 707: the AF receives the second subscription informationconfiguration response message transmitted by the SMF, and forwards itto the UE.

Optionally, the steps 706 and 707 in this embodiment may also beimplemented in one step, namely in the step 706, after generating thefirst subscription data needed by the UE, the SMF may search out the UEbased on the IP of the UE, and establishes connection with the UE, thentransmits the first subscription data to the UE directly through thesecond subscription information configuration response message; ofcourse, in this way, in step 703, the second subscription informationconfiguration request transmitted from the AF to the SMF may furtherinclude the IP of the UE.

According to the method provided in this embodiment, switching from thenetwork of the first operator to the network of the second operator astriggered by a UE can be realized, thereby satisfying requirements ofthe user for changing the operator network, and the interaction processis much simpler.

FIG. 8 is a schematic signaling flowchart of online subscription dataconfiguration described from a perspective of interactions amongmultiple network elements according to still another embodiment of thepresent disclosure; please refer to FIG. 8, the method provided in thethis embodiment is applicable to the case that a UE has alreadyconnected to a network of a first operator, and then a service providerinitiates switching from the network of the first operator to a networkof a second operator, and is particularly applicable to a large scaleonline subscription data configuration procedure when the serviceprovider decides to simultaneously perform switching for multiple UEsbelonging to the service provider. The difference between thisembodiment and embodiment 7 is that, this embodiment is the switchingprocedure initiated by the service provider. The method of thisembodiment may include:

Step 801: a UE establishes connection to the network of the firstoperator by utilizing subscription data of the first operator;optionally, there may be multiple UEs.

Step 802: an AF selects a SMF of a second operator, and transmits asecond subscription information configuration request to the SMF, wherethe second subscription information configuration request includes:equipment capability information of the UE, information of a servicesupported by the UE and IMEI;

Optionally, when there are multiple UEs, the second subscriptioninformation configuration request may further include the correspondenceamong the IMEI of the UE, the equipment capability information of the UEand the information of the service supported by the UE.

Optionally, in addition to the equipment capability information of theUE, the information of the service supported by the UE and the IMEI, thesecond subscription information configuration request may furtherinclude: IMSI of the UE under the network of the first operator, IP ofthe UE and etc.; when there are multiple UEs, the second subscriptioninformation configuration request may further include a correspondenceamong the IMSI of the UE under the network of the first operator, the IPof the UE and the UE.

Step 803: the SMF receives the second subscription informationconfiguration request transmitted by the AF, allocates IMSIs under thenetwork of the second operator to the UEs respectively, and acquires theequipment capability information for the UE and the information of theservice supported by the UE from the second subscription informationconfiguration request, generates user subscription data of the UEaccording to the equipment capability information of the UE and theinformation of the service supported by the UE, generates user servicesubscription data of the UE according to the information of the servicesupported by the UE; where, the user subscription data and the userservice subscription data may include the IMSI allocated to the UE bythe SMF;

The SMF transmits the user subscription data to the HSS, to enable theHSS to the user subscription data; optionally, when there are multipleUEs, the SMF further generates the correspondence among the UE, the usersubscription data and the user service subscription data, and transmitsthe correspondence between the UE and the user subscription data to theHSS.

Optionally, after storing the user subscription data, the HSS maytransmits a storing user subscription data success indication message tothe SMF.

Step 804: the SMF transmits the user service subscription data to theSPR, to enable the SPR to store the user service subscription data.

Optionally, when there are multiple UEs, the SMF may further transmitthe correspondence between the UE and the user service subscription datato the SPR.

Optionally, after storing the user service subscription datasuccessfully, the SPR may transmit a storing user service subscriptiondata success indication message to the SMF.

Step 805: the SMF generates first subscription data needed by the UEaccording to the equipment capability information of the UE, andtransmits a second subscription information configuration responsemessage to the AF, where the second subscription informationconfiguration response message includes the first subscription data;when there are multiple UEs, the SMF further generates correspondencebetween the UE and the first subscription data needed by the UEsimultaneously; and transmits the subscription information configurationresponse message corresponding to each UE to the AFs respectively.

Step 806: the AF receives the subscription information configurationresponse message transmitted by the SMF, and forwards the subscriptioninformation configuration response message to the UE.

Optionally, after receiving the subscription information configurationresponse message, the UE may store the first subscription data, andtransmits a storing first subscription data success indication messageto the AF, and the AF may further forwards the storing firstsubscription data success indication message to the SMF.

Later, the UE connects to the network of the second operator inaccordance with the prior art.

According to the method provided in this embodiment, all or a part ofUEs executing service of a service provider may switch from a network ofa first operator to a network of a second operator under control of theservice provider according to the needs of a service provider, therebyimproving the flexibility of the service provider in selecting anoperator, and thus satisfying the practical operating requirements ofthe service provider better.

FIG. 9 is a schematic diagram of a subscription data configurationfunction device (SMF) according to an embodiment of the presentdisclosure, as shown in FIG. 9, each module and unit of the SMF mayseparately or corporately execute the process procedure executed by theSMF in the method embodiments corresponding to figures FIG. 1 to FIG. 3,FIG. 4A and FIG. 4B, and FIG. 5 to FIG. 8. The SMF provided in thisembodiment includes:

a first acquiring module 11, configured to acquire equipment capabilityinformation of a user equipment (UE) and information of a servicesupported by the UE;

a subscription data generating module 12, configured to generate usersubscription data according to the equipment capability information ofthe UE and the information of the service supported by the UE, andgenerating user service subscription data according to the informationof the service supported by the UE; where the user subscription data andthe user service subscription data include an international mobilesubscriber identity (IMSI) allocated to the UE by the SMF; and

a subscription data configuration module 13, configured to performsubscription data configuration on a home subscriber server (HSS) and asubscription profile repository (SPR), according to the usersubscription data and the user service subscription data. The firstsubscription data configuration on a home subscriber server HSS and asubscription profile repository SPR, according to the user subscriptiondata and the user service subscription data module 11 may be atransceiver, a subscription data generating module 12 may be aprocessor, and the subscription data configuration module 13 may be atransceiver.

FIG. 10 is a schematic structure diagram of an embodiment of thesubscription data configuring module in FIG. 9, as shown in FIG. 10, inthe SMF, the subscription data configuration module 13 may specificallyinclude:

a first configuration unit 131, configured to transmit the usersubscription data to the HSS, to enable the HSS to store the usersubscription data; and

a second configuration unit 132, configured to transmit the user servicesubscription data to the SPR, to enable the SPR to store the userservice subscription data.

The unit 131 or the unit 132 may be implemented by a transmitter.

FIG. 11 is a schematic structure diagram of an embodiment of the firstobtaining module in FIG. 9, as shown in FIG. 11, in the SMF, the firstacquiring module 11 may include:

a first request acquiring unit 111, configured to acquire a firstsubscription information configuration request, where the firstsubscription information configuration request includes theinternational mobile equipment identity (IMEI) of the UE;

an authorization transmitting unit 112, configured to transmit anauthorization and authentication request to an application server (AF),where the authorization and authentication request includes the IMEI ofthe UE; and

an authorization response receiving unit 113, configured to receive anauthorization and authentication response message returned by the AF,where the authorization and authentication response message includes theequipment capability information of the UE and the information of theservice supported by the UE.

The authorization transmitting unit 112 may be implemented by atransmitter, and the authorization response receiving unit 113 may be areceiver.

FIG. 12 is a schematic structure diagram of another embodiment of thefirst obtaining module in FIG. 9, as shown in FIG. 12, in the SMF, thefirst acquiring module 11 may include:

a second subscription information configuration receiving unit 114,configured to receive a second subscription information configurationrequest transmitted by an application server (AF), where the secondsubscription information configuration request includes: the equipmentcapability information of the UE, the information of service supportedby the UE and the international mobile equipment identity (IMEI) of theUE The second configuration subscription information receiving unit 114may be a receiver.

FIG. 13 is a schematic structure diagram of a subscription dataconfiguration function device (SMF) according to another embodiment ofthe present disclosure, as shown in FIG. 13, each module and unit of theSMF may separately or corporately execute the process procedure executedby the SMF in the method embodiments corresponding to figures FIG. 1 toFIG. 3, FIG. 4A and FIG. 4B, and FIG. 5 to FIG. 8. Based on the SMF asshown in FIG. 9, the SMF in this embodiment, further includes:

a first subscription data generating module 15, configured to generatefirst subscription data needed by the UE according to the equipmentcapability information of the UE, and transmitting the firstsubscription data to the UE, to enable the UE to store the firstsubscription data.

The SMF provided in the above embodiments may be used for executing thetechnical solutions executed by a SMF in the aforementioned methodembodiments, where the implementing principle and the technical effectare similar, and will not be repeated here.

According to the SMF provided in this embodiment, performing onlinesubscription data configuration on the UE and the network side can berealized, when the UE is configured with no subscription data of anyoperator, or the UE is already configured with subscription data of afirst operator but needs to be reconfigured with subscription data of asecond operator thereby satisfying the requirements of a user or anapplication provider utilizing an eUICC for changing an operator.

FIG. 14 is a schematic structure diagram of a home subscriber server(HSS) according to an embodiment of the present disclosure, as shown inFIG. 14, each module and unit of the HSS may separately or corporatelyexecute the process procedure executed by the HSS in the methodembodiments corresponding to figures FIG. 1 to FIG. 3, FIG. 4A and FIG.4B, and FIG. 5 to FIG. 8. The HSS in this embodiment may include:

a first transmitting module 21, configured to transmit a firstsubscription information configuration request to a subscription dataconfiguration function device SMF, where the first subscriptioninformation configuration request includes an international mobileequipment identity (IMEI) of a user equipment (UE); and

a first receiving module 22, configured to receive and store usersubscription data transmitted by the SMF, where the user subscriptiondata is generated according to equipment capability information of theUE and information of a service supported by the UE and is transmittedby the SMF, and the user subscription data includes the internationalmobile subscriber identity (IMSI) allocated to the UE by the SMF.

The first transmitting module 21 may be a transmitter, and the firstreceiving module 22 may be a receiver.

FIG. 15 is a schematic structure diagram of a home subscriber server(HSS) according to an embodiment of the present disclosure, as shown inFIG. 15, each module and unit of the HSS may separately or corporatelyexecute the process procedure executed by the HSS in the methodembodiments corresponding to figures FIG. 1 to FIG. 3, FIG. 4A and FIG.4B, and FIG. 5 to FIG. 8. Based on the HSS as shown in FIG. 14, the HSSin this embodiment, further includes:

a first request receiving module 23, configured to receive the firstsubscription information configuration request which is forwarded via amobility management entity (MME) from the UE.

The first request receiving module 23 may be a receiver.

FIG. 16 is a schematic structure diagram of a home subscriber server(HSS) according to an embodiment of the present disclosure, as shown inFIG. 16, each module and unit of the HSS may separately or corporatelyexecute the process procedure executed by the HSS in the methodembodiments corresponding to figures FIG. 1 to FIG. 3, FIG. 4A and FIG.4B, and FIG. 5 to FIG. 8. Based on the HSS as shown in FIG. 15, thisembodiment further includes:

a first subscription data forwarding module 24, configured to receive afirst subscription data needed by the UE, where the first subscriptiondata is transmitted by the SMF, and transmitting a first subscriptioninformation configuration response message to the UE, to enable the UEto store the first subscription data, where the first subscriptioninformation configuration response message includes the firstsubscription data, and the first subscription data is generated by theSMF according to the equipment capability information of the UE. Thefirst subscription data forwarding module 24 may be a transceiver.

The HSS provided in the above embodiments may be used for executing thetechnical solutions executed by a HSS in the aforementioned methodembodiments, where the implementing principle and the technical effectare similar, and will not be repeated here.

When the HSS provided in this embodiment cooperates with the SMFprovided in the embodiments of the present disclosure, performing onlinesubscription data configuration on the UE and the network side can berealized, thereby satisfying the requirements of a user or anapplication provider utilizing an eUICC for changing an operator.

FIG. 17 is a schematic structure diagram of a mobility management entity(MME) according to an embodiment of the present disclosure, as shown inFIG. 17, each module and unit of the MME may separately or corporatelyexecute the process procedure executed by the MME in the methodembodiments corresponding to figures FIG. 1 to FIG. 3, FIG. 4A and FIG.4B, and FIG. 5 to FIG. 8. The MME in this embodiment may include:

a second transmitting module 31, configured to transmit a firstsubscription information configuration request to a subscription dataconfiguration function device (SMF), where the first subscriptioninformation configuration request includes an international mobileequipment identity (IMEI) of a user equipment (UE); and

a second receiving module 32, configured to receive a first subscriptioninformation configuration response message transmitted by the SMF, wherethe first subscription information configuration response message istransmitted by the SMF after the SMF acquires equipment capabilityinformation of the UE and information of a service supported by the UE,generates user subscription data according to the equipment capabilityinformation of the UE and the information of the service supported bythe UE, generates user service subscription data according to theinformation of the service supported by the UE, and completessubscription data configuration on a home subscriber server (HSS) and asubscription profile repository (SPR) according to the user subscriptiondata and the user service subscription data.

The second transmitting module 31 may be a transmitter, and the secondreceiving module 32 may be a receiver.

FIG. 18 is a schematic structure diagram of a mobility management entity(MME) according to an embodiment of the present disclosure, as shown inFIG. 18, each module and unit of the MME may separately or corporatelyexecute the process procedure executed by the MME in the methodembodiments corresponding to figures FIG. 1 to FIG. 3, FIG. 4A and FIG.4B, and FIG. 5 to FIG. 8. Based on the MME as shown in FIG. 17, theembodiment further includes:

a second request receiving module 33, configured to receive the firstsubscription information configuration request transmitted by the UE; sothat the first subscription information configuration request istransmitted to the SMF via the second transmitting module 31subsequently. The second request receiving module 33 may be a receiver.

The MME provided in the above embodiments may be used for executing thetechnical solutions executed by an MME in the aforementioned methodembodiments, where the implementing principle and the technical effectare similar, and will not be repeated here.

When the MME provided in this embodiment cooperates with the SMFprovided in embodiments of the present disclosure, performing onlinesubscription data configuration on the UE and the network side can berealized, when the UE is configured with no subscription data of anyoperator, or the UE is already configured with subscription data of afirst operator but needs to be reconfigured with subscription data of asecond operator, thereby satisfying the requirements of a user or anapplication provider utilizing an eUICC for changing an operator.

FIG. 19 is a schematic structure diagram of an application server (AF)according to an embodiment of the present disclosure, as shown in FIG.19, each module and unit of the AF may separately or corporately executethe process procedure executed by the AF in the method embodimentscorresponding to figures FIG. 1 to FIG. 3, FIG. 4A and FIG. 4B, and FIG.5 to FIG. 8. The AF in this embodiment may include:

a third acquiring module 41, configured to acquire equipment capabilityinformation of a user equipment (UE), and information of a servicesupported by the UE; and a third transmitting module 42, configured totransmit the equipment capability information of the UE and theinformation of the service supported by the UE to a subscription dataconfiguration function device (SMF), to enable the SMF to generate usersubscription data according to the equipment capability information ofthe UE and the information of the service supported by the UE, andgenerate user service subscription data according to the information ofthe service supported by the UE, and perform subscription dataconfiguration on a home subscriber server (HSS) and a subscriptionprofile repository (SPR) according to the user subscription data and theuser service subscription data, where the user subscription data and theuser service subscription data include an international mobilesubscriber identity IMSI allocated to the UE by the SMF. The thirdtransmitting module 42 may be a transmitter.

FIG. 20 is a schematic structure diagram of an application server (AF)according to another embodiment of the present disclosure, as shown inFIG. 20, is embodiment is a more specific implementation of the AF asshown in FIG. 19, in the AF of this embodiment, the third acquiringmodule 41 may include:

an authorization receiving unit 411, configured to receive anauthorization and authentication request transmitted by the SMF, wherethe authorization and authentication request includes the internationalmobile equipment identity (IMEI) of the UE; and

a matching and acquiring unit 412, configured to acquire the equipmentcapability information of the UE and the information of the servicesupported by the UE according to the IMEI of the UE in the authorizationand authentication request.

The authorization receiving unit 411 may be a receiver, and the matchingand acquiring unit 412 may be a processor.

Further, the third transmitting module 42 may include:

an authorization response unit 421, configured to transmit anauthorization and authentication response message to the SMF, where theauthorization and authentication response message includes the equipmentcapability information of the UE and the information of the servicesupported by the UE. The authorization response unit 421 may be atransmitter.

FIG. 21 is a schematic structure diagram of another embodiment of thethird transmitting module in FIG. 19, the third transmitting module 42may include:

a second subscription information configuration transmitting unit 422,configured to transmit a second subscription information configurationrequest to the SMF, where the second subscription informationconfiguration request includes: the equipment capability information ofthe UE, the information of the service supported by the UE, and the IMEIof the UE. The second subscription information configurationtransmitting unit 422 may be a transmitter.

FIG. 22 is a schematic diagram of an application server (AF) accordingto another embodiment of the present disclosure, as shown in FIG. 22,based on the AF shown in FIG. 19, in this embodiment, the AF may furtherinclude:

a second subscription information configuration response receivingmodule 43, configured to receive a second subscription informationconfiguration response message transmitted by the SMF, where the secondsubscription information configuration response message includes firstsubscription data needed by the UE; where the first subscription data isgenerated by the SMF according to the equipment capability informationof the UE; and

a first subscription data transmitting module 44, configured to transmitthe first subscription data to the UE. Where, the third transmittingmodule 42 may also utilize the specific structure as shown in FIG. 21.

The second subscription information configuration response receivingmodule 43 may be a receiver, and the first subscription datatransmitting module 44 may be a transmitter.

FIG. 23 is a schematic structure diagram of another embodiment of thethird acquiring module in FIG. 19, as shown in FIG. 23, the thirdacquiring module 41 may include:

an instruction receiving unit 413, configured to receive an operatorswitching instruction; and

a third matching and acquiring unit 414, configured to acquire theequipment capability information of the UE, and the information of theservice supported by the UE according to the operator switchinginstruction.

The instruction receiving unit 413 may be a receiver, and the thirdmatching and acquiring unit 414 may be a processor.

The AF provided in the above embodiments may be used for executing thetechnical solutions executed by an AF in the aforementioned methodembodiments, where the implementing principle and the technical effectare similar, and will not be repeated here.

When the AF provided in this embodiment cooperates with the SMF providedin embodiments of the present disclosure, performing online subscriptiondata configuration on the UE and the network side can be realized, whenthe UE is configured with no subscription data of any operator and needsto be connected to a network of a second operator for the first time, orthe UE is already connected to a network of a first operator but needsto switch to a network of the second operator, thereby satisfying therequirements of a user or an application provider utilizing an eUICC forchanging an operator.

FIG. 24 is a schematic structure diagram of a system for onlinesubscription data configuration according to an embodiment of thepresent disclosure, as shown in FIG. 24, the system for onlinesubscription data configuration in is embodiment may include: asubscription data configuration function device (SMF) 52, an applicationserver (AF) 53, and a user equipment (UE) 51. The apparatuses such as aSMF, an AF and a UE in this embodiment may execute the process procedureexecuted by the corresponding apparatus in the method embodimentscorresponding to the figures FIG. 1 to FIG. 3, FIG. 4A and FIG. 4B, andFIG. 5 to FIG. 8.

Where, the SMF 52 may specifically use the structures as shown infigures from FIG. 9 to FIG. 13, the AF 53 may then use the structures asshown in figures from FIG. 19 to FIG. 23; and the UE 51 may be in theeUICC-embedded form, and the operator network logon instruction or theoperator switching instruction may be input into the UE manually;moreover, the system may further include a HSS and an MME, where, theHSS may use the structures as shown in FIG. 14 or FIG. 15 or FIG. 16,and the MME may use the structures as shown in FIG. 17 or FIG. 18, wherethe implementing principle and the technical effect of the system aresimilar with that of the aforementioned embodiments, and will not berepeated here.

According to the system for online subscription data configurationprovided in this embodiment, performing online subscription dataconfiguration on the UE and the network side can be realized, when theUE is configured with no subscription data of any operator and needs tobe connected to a network of a second operator for the first time, orthe UE is already configured with subscription data of a first operatorbut needs to be connected to a network of the second operator, therebysatisfying the requirements of a user or an application providerutilizing an eUICC for changing an operator.

Persons of ordinary skill in the art may understand that all or a partof the steps of the methods according to embodiments of the presentdisclosure may be implemented by a program instructing relevanthardware. The program may be stored in a computer readable storagemedium. When the program runs, the steps of the methods according to theembodiments are performed. The storage medium may be any medium that iscapable of storing program codes, such as a ROM, a RAM, a magnetic disk,or an optical disk.

Finally, it should be noted that the foregoing embodiments are merelyintended for describing the technical solutions of the presentdisclosure other than limiting the present disclosure. Although thepresent disclosure is described in detail with reference to theforegoing embodiments, persons of ordinary skill in the art shouldunderstand that they may still make modifications to the technicalsolutions described in the foregoing embodiments or make equivalentsubstitutions to some technical features thereof, without departing fromthe spirit and scope of the technical solutions of embodiments of thepresent disclosure.

What is claimed is:
 1. A method for online subscription dataconfiguration, comprising: acquiring, by a subscription managementdevice, equipment capability information of a user equipment (UE) andinformation of a service supported by the UE; generating, by thesubscription management device, user subscription data according to theequipment capability information of the UE and the information of theservice supported by the UE, and generating service subscription dataaccording to the information of the service, wherein the usersubscription data and the service subscription data comprise aninternational mobile subscriber identity (IMSI) allocated to the UE bythe subscription management device; and performing, by the subscriptionmanagement device, subscription data configuration on a home subscriberserver and a subscription profile repository, according to the usersubscription data and the service subscription data.
 2. The methodaccording to claim 1, wherein performing the subscription dataconfiguration on the home subscriber server and the subscription profilerepository comprises: transmitting, by the subscription managementdevice, the user subscription data to the home subscriber server; andtransmitting, by the subscription management device, the servicesubscription data to the subscription profile repository.
 3. The methodaccording to claim 1, wherein acquiring the equipment capabilityinformation and the information of the service comprises: acquiring, bythe subscription management device, a first request for requestingsubscription configuration, wherein the first request comprises aninternational mobile equipment identity (IMEI) of the UE; transmitting,by the subscription management device, a second request for requestingauthorization and authentication to an application server, wherein thesecond request comprises the IMEI of the UE; and receiving, by thesubscription management device, a response from the application server,wherein the response comprises the equipment capability information ofthe UE and the information of the service supported by the UE.
 4. Themethod according to claim 3, wherein acquiring the first requestcomprises: receiving, by the subscription management device, the firstrequest from the UE; or receiving, by the subscription managementdevice, the first request forwarded by the home subscriber server from amobility management entity; or receiving, by the subscription managementdevice, the first request forwarded by a mobility management entity fromthe UE.
 5. The method according to claim 1, wherein acquiring theequipment capability information and the information of the servicecomprises: receiving, by the subscription management device, a secondrequest for requesting subscription configuration from an applicationserver, wherein the second request comprises: the equipment capabilityinformation of the UE, the information of service supported by the UE,and an international mobile equipment identity (IMEI) of the UE.
 6. Themethod according to claim 1, further comprising: generating, by thesubscription management device, subscription data for the UE accordingto the equipment capability information of the UE; and transmitting thesubscription data to the UE.
 7. The method according to claim 6, whereintransmitting the subscription data to the UE comprises: transmitting, bythe subscription management device, a first subscription informationconfiguration response to the home subscriber server, wherein the firstsubscription information configuration response comprises thesubscription data; or transmitting, by the subscription managementdevice, the first subscription information configuration response to amobility management entity; or transmitting, by the subscriptionmanagement device, a second subscription information configurationresponse to an application server, wherein the second subscriptioninformation configuration response message includes the subscriptiondata.
 8. A subscription management device, comprising: a transceiver; aprocessor; and a computer-readable storage medium storing a program tobe executed by the processor, the program including instructions for:acquiring equipment capability information of a user equipment (UE) andinformation of a service supported by the UE; generating usersubscription data according to the equipment capability information ofthe UE and the information of the service supported by the UE, andgenerating service subscription data according to the information of theservice, wherein the user subscription data and the service subscriptiondata comprise an international mobile subscriber identity (IMSI)allocated to the UE by the subscription management device; andperforming subscription data configuration on a home subscriber serverand a subscription profile repository, according to the usersubscription data and the service subscription data.
 9. The subscriptionmanagement device according to claim 8, wherein the program includesinstructions for: transmitting the user subscription data to the homesubscriber server; and transmitting the service subscription data to thesubscription profile repository.
 10. The subscription management deviceaccording to claim 8, wherein the program includes instructions for:acquiring a first request for requesting subscription configuration,wherein the first request comprises an international mobile equipmentidentity (IMEI) of the UE; transmitting a second request for requestingauthorization and authentication to an application server, wherein thesecond request comprises the IMEI of the UE; and receiving a responsefrom the application server, wherein the response comprises theequipment capability information of the UE and the information of theservice supported by the UE.
 11. The subscription management deviceaccording to claim 8, wherein the program includes instructions for:receiving the first request from the UE; or receiving the first requestforwarded by the home subscriber server from a mobility managemententity; or receiving the first request forwarded by a mobilitymanagement entity from the UE.
 12. The subscription management deviceaccording to claim 8, wherein the program includes instructions for:receiving a second request for requesting subscription configurationfrom an application server, wherein the second request comprises: theequipment capability information of the UE, the information of servicesupported by the UE, and an international mobile equipment identity(IMEI) of the UE.
 13. The subscription management device according toclaim 8, wherein the program includes instructions for: generating, bythe subscription management device, subscription data for the UEaccording to the equipment capability information of the UE; andtransmitting the subscription data to the UE.
 14. The subscriptionmanagement device according to claim 13, wherein the program includesinstructions for: transmitting a first subscription informationconfiguration response to the home subscriber server, wherein the firstsubscription information configuration response comprises thesubscription data; or transmitting the first subscription informationconfiguration response to a mobility management entity; or transmittinga second subscription information configuration response to anapplication server, wherein the second subscription informationconfiguration response message includes the subscription data.
 15. Anon-transitory computer-readable storage medium storing computerinstructions for execution by one or more processors, wherein thecomputer instructions instruct the one or more processors a subscriptionmanagement device to perform operations of: acquiring equipmentcapability information of a user equipment (UE) and information of aservice supported by the UE; generating user subscription data accordingto the equipment capability information of the UE and the information ofthe service supported by the UE, and generating service subscriptiondata according to the information of the service, wherein the usersubscription data and the service subscription data comprise aninternational mobile subscriber identity (IMSI) allocated to the UE bythe subscription management device; and performing subscription dataconfiguration on a home subscriber server and a subscription profilerepository, according to the user subscription data and the servicesubscription data.